Svitlana Kopyl

Researcher

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Department

  • Physics
  • 32.3.30.1

Research

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Funded projects

2023-2026

principal Investigator

BIOCOMPATIBLE PIEZOELECTRIC THIN FILMS: TOWARDS WEARABLE SENSOR DEVICES - 2022.03781.PTDC (CICECO, UA & University of Minho). Financiamento FCT. 248.434 €.

2018-2021

principal Investigator

DEVELOPMENT OF NEW PIEZOELECTRIC MATERIALS BASED ON NANOSTRUCTURED SELF-ASSEMBLED PEPTIDES-CENTRO-01-0145-FEDER-031679 (CICECO, UA & CNC Centro de Neurociências e Biologia Celular.  Financiamento FCT. 228.714 €. Avaliação: Excelente.

Projects

Publications

Graphene-based materials and structures for energy harvesting with fluids - A review

Tarelho, JPG; dos Santos, MPS; Ferreira, JAF; Ramos, A; Kopyl, S; Kim, SO; Hong, S; Kholkin, A
2018, MATERIALS TODAY, 21, 10, 1019-1041.

Effect of the Chloride Anions on the Formation of Self-Assembled Diphenylalanine Peptide Nanotubes

Dayarian, S; Kopyl, S; Bystrov, V; Correia, MR; Ivanov, MS; Pelegova, E; Kholkin, A
2018, IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL, 65, 9, 1563-1570.

Non-Hydrostatic Pressure-Induced Phase Transitions in Self-Assembled Diphenylalanine Microtubes

Krylov, A; Krylova, S; Kopyl, S; Kholkin, A
2018, TECHNICAL PHYSICS, 63, 9, 1311-1315.

Surface modified hydroxyapatites with various functionalized nanostructures: Computational studies of the vacancies in HAp

Bystrov, VS; Paramonova, EV; Dekhtyar, YD; Bystrova, AV; Pullar, RC; Kopyl, S; Tobaldi, DM; Piccirillo, C; Avakyan, LA; Coutinho, J
2017, FERROELECTRICS, 509, 1, 105-112.

Graphene/graphene oxide and polyvinylidene fluoride polymer ferroelectric composites for multifunctional applications

Bystrov, VS; Bdikin, IK; Silibin, MV; Karpinsky, DV; Kopyl, SA; Goncalves, G; Sapronova, AV; Kuznetsova, T; Bystrova, VV
2017, FERROELECTRICS, 509, 1, 124-142.
ISBN: 1563-5112

Molecular modeling of the piezoelectric properties of ferroelectric composites containing polyvinylidene fluoride (PVDF) and either graphene or graphene oxide

Bystrov, VS; Bdikin, IK; Silibin, M; Karpinsky, D; Kopyl, S; Paramonova, EV; Goncalves, G
2017, JOURNAL OF MOLECULAR MODELING, 23, 4.
ISBN: 0948-5023

High Resolution Piezoresponse Force Microscopy Study of Self-Assembled Peptide Nanotubes

Ivanov, M; Bak, O; Kopyl, S; Vasilev, S; Zelenovskiy, P; Shur, V; Gruverman, A; Kholkin, A
2017, MRS ADVANCES, 2, 2, 63-69.

Oxygen vacancies, the optical band gap (E-g) and photocatalysis of hydroxyapatite: Comparing modelling with measured data

Bystrov, VS; Piccirillo, C; Tobaldi, DM; Castro, PML; Coutinho, J; Kopyl, S; Pullar, RC
2016, APPLIED CATALYSIS B-ENVIRONMENTAL, 196, 100-107.

Evaporation-Driven Crystallization of Diphenylalanine Microtubes for Microelectronic Applications

Nuraeva, A; Vasilev, S; Vasileva, D; Zelenovskiy, P; Chezganov, D; Esin, A; Kopyl, S; Romanyuk, K; Shur, VY; Kholkin, AL
2016, CRYSTAL GROWTH & DESIGN, 16, 3, 1472-1479.

Low-temperature photoluminescence in self-assembled diphenylalanine microtubes

Nikitin, T; Kopyl, S; Shur, VY; Kopelevich, YV; Kholkin, AL
2016, PHYSICS LETTERS A, 380, 18-19, 1658-1662.

Organic and Biological Piezoelectric Materials

Piezoelectric Polymers and Polymer Composites for Advanced Applications
Hélder Baptista, Tomás Simões, Pavel Zelenovskii, Konstantin Romanyuk, Andrei Kholkin, Svitlana Kopyl
2025.

Organic and Biological Piezoelectric Materials

In Lanceros‐Méndez, S., Costa, C.M (Eds.), Piezoelectric Polymers and Polymer Composites for Advanced Applications
Baptista, H., Simões, T., Zelenovskii, P., Romanyuk, K., Kholkin, A., Kopyl, S
2025.

Nanomaterials Based on Peptide Nanotubes with Graphene and Ferroelectric Polymers Layers: Modelling and Numerical Studies of Photoelectronic Properties

In Andreas Öchsner, Holm Altenbach (Eds.), Engineering Design Applications V: Structures, Materials and Processes
Bystrov V.S.; Paramonova E.V.; Zelenovskiy P.S.; Kopyl S.A.; Meng X.; Shen H.; Lin T.; Fridkin V.M.
2023, Advanced Structured Materials, 171, 115-123, Springer Science and Business Media Deutschland GmbH.
ISBN: 978-3-031-26465-8

Electrocaloric-based applications: Challenges and perspectives

In A. L. Kholkin, O. V. Pakhomov, A. A. Semenov, A. Tselev (Eds.), The Electrocaloric Effect: Materials and Applications
Kholkin A.L.; Kopyl S.; Tselev A.; Suchaneck G.
2023, The Electrocaloric Effect: Materials and Applications, 407-425, Elsevier.
ISBN: 978-012821647-7; 978-012821648-4

Piezoelectricity in Self-Assembled Peptides: A New Way towards Electricity Generation at Nanoscale

Nanogenerators
Vladislav Slabov, Svitlana Kopyl, Marco P. Soares dos Santos and Andrei Kholkin
2019.
ISBN: 978-1-83881-060-3

Energy harvesting with biomaterials

In Syed A M Tofail & Joanna Bauer (Eds.), Electrically Active Materials for Medical Devices
Indrani Coondoo, Svitlana Kopyl, Maxim Ivanov, V. Ya. Shur, and Andrei L. Kholkin
2016, 297-316, London, Imperial College Press.
ISBN: 978-1-78326-986-0

Ferroelectricity in synthetic biomaterials: Hydroxyapatite and polypeptides

In Syed A M Tofail & Joanna Bauer (Eds.), Electrically Active Materials for Medical Devices
M. Ivanov, S. Kopyl, S.A.M. Tofail, K. Ryan, B.J. Rodriguez, V. Ya. Shur, and A. L. Kholkin
2016, 149-166, London, Imperial College Press.
ISBN: 978-1-78326-986-0

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